La clase ObjectInputStream deserializa los datos primitivos y los objetos escritos previamente por flujo de salida de objetos .
- Tanto ObjectOutputStream como ObjectInputStream se utilizan ya que proporcionan almacenamiento para gráficos de objetos.
- Garantiza que el objeto para el que está trabajando coincida con las clases de JVM, es decir, la máquina virtual Java. Sólo aquellos objetos se pueden leer de las secuencias que admiten Serializable o Exteriorizable - De lo contrario, se producirá un error en las clases IO. Serializable es básicamente una especie de marcador para JVM (Java Virtual Machine) que le indica que escriba el estado del Objeto presente en Stream.
Declaración :
public class ObjectInputStream
extends InputStream
implements ObjectInput ObjectStreamConstants
Constructores:
- ObjectInputStream protegido() : Ayude a las subclases a no asignar datos privados utilizados por ObjectInputStream si están reimplementando ObjectInputStream.
- ObjectInputStream(InputStream fuente_entrada): Cree ObjectInputStream que lea datos del flujo de entrada 'source_input'.
Métodos:
- leer(): java.io.ObjectInputStream.read() lee el byte de datos y lo bloquea en caso de que no haya datos presentes para leer. Sintaxis:
public int read()
Parameters :
-----------
Return :
reads byte else return -1 if end of Stream is detected.
Exception :
-> IOException : in case of any IO error occurs.
- readBoolean(): java.io.ObjectInputStream.readBoolean() Lee en un booleano.
Sintaxis:
public int readBoolean()Java
Parameters :
-----------
Return :
reads in a boolean.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of read() readBoolean() method import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); // Methods covered in later geek_outStream.writeBoolean(true); geek_outStream.writeUTF("Geeks For Geeks"); geek_outStream.flush(); // Use of readBoolean() System.out.println("USe of readBoolean() : " + Geek_inStream.readBoolean()); System.out.print("Use of read() method in Java : "); // Use of read() method : reading the content of file for (int i = 0; i < Geek_inStream.available();) { System.out.print((char) Geek_inStream.read()); } } }
- Producción :
USe of readBoolean() : true
Use of read() method in Java : Geeks For Geeks
- leer (byte [] buffer int offset int maxlen): java.io.ObjectInputStream.read (byte [] buffer int offset int maxlen) lee parte de los datos del 'búfer' comenzando desde la posición de desplazamiento hasta la posición maxlen del búfer. Sintaxis:
public int read(byte[] buffer int offset int maxlen)Java
Parameters :
buffer : buffer to be read
offset : starting position of the buffer
maxlen : max. no. of bytes to be read
Return :
reads 'maxlen' bytes of data else return -1 if end of Stream is detected.
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of // read(byte[] buffer int offset int maxlen) import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("GeeksForGeeks"); geek_outStream.flush(); byte[] buffer = new byte[25]; // Use of read(byte[] buffer int offset int maxlen) Geek_inStream.read(buffer 2 20); System.out.print("Use of read(buffer offset maxlen) : "); for (int i = 0; i < 19; i++) { System.out.print((char)buffer[i]); } } }
- Producción :
GeeksForGeeks
- readByte(): java.io.ObjectInputStream.readByte() lee un byte de 8 bits.
Sintaxis:
public byte readByte()
Parameters :
-----------
Return :
reads 8-bit byte.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- leerChar(): java.io.ObjectInputStream.readChar() lee caracteres de 16 bits.
Sintaxis:
public int read()
Parameters :
-----------
Return :
reads 16-bit of char.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readDouble() : java.io.ObjectInputStream.readDouble() Lee 64 bits doble.
Sintaxis:
public double readDouble()
Parameters :
-----------
Return :
reads 64 bit double.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- leerFloat(): java.io.ObjectInputStream.readFloat() lee un flotante de 32 bits.
Sintaxis:
public float readFloat()
Parameters :
-----------
Return :
reads a 32 bit float.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readInt() : java.io.ObjectInputStream.readInt() lee un int de 32 bits.
Sintaxis:
public int readInt()
Parameters :
-----------
Return :
reads a 32 bit int.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- leerLong(): java.io.ObjectInputStream.readLong() Lee una longitud de 64 bits.
Sintaxis:
public long readLong()Java
Parameters :
-----------
Return :
reads a 64 bit long.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of // readChar() writeByte() writeDouble() // writeFloat() writeInt() writeLong() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeChar('G'); geek_outStream.writeByte('G'); geek_outStream.writeDouble(00436754746); geek_outStream.writeFloat(2.12345f); geek_outStream.writeInt(3576); geek_outStream.writeLong(368723776); geek_outStream.flush(); // Use of readChar() System.out.println("Use of readChar() : " + Geek_inStream.readChar()); // Use of readByte() : System.out.println("Use of readByte() : " + Geek_inStream.readByte()); // Use of readDouble() : System.out.println("Use of readDouble() : " + Geek_inStream.readDouble()); // Use of readFloat() : System.out.println("Use of readFloat() : " + Geek_inStream.readFloat()); // Use of readInt() : System.out.println("Use of readInt() : " + Geek_inStream.readInt()); // Use of readLong() : System.out.println("Use of readLong() : " + Geek_inStream.readLong()); } }
- Producción :
Use of readChar() : G
Use of readByte() : 71
Use of readDouble() : 7.5225574E7
Use of readFloat() : 2.12345
Use of readInt() : 3576
Use of readLong() : 368723776
- readUnsignedByte(): java.io.ObjectInputStream.readUnsignedByte() Lee un byte de 8 bits sin firmar.
Sintaxis:
public int readUnsignedByte()
Parameters :
-----------
Return :
reads an unsigned 8 bit byte.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readUnsignedShort(): java.io.ObjectInputStream.readUnsignedShort() lee un corto de 16 bits sin firmar. Sintaxis:
public int readUnsignedShort()Java
Parameters :
-----------
Return :
reads an unsigned 16 bit short.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of // readUnsignedByte() and readUnsignedShort() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeByte(111); geek_outStream.writeShort(121212); geek_outStream.flush(); // Use of readUnsignedByte() System.out.println("readUnsignedByte() : " + Geek_inStream.readUnsignedByte()); // Use of readUnsignedShort() : System.out.println("readUnsignedShort() : " + Geek_inStream.readUnsignedShort()); } }
- Producción :
readUnsignedByte() : 111
readUnsignedShort() : 55676
- leerUTF(): java.io.ObjectInputStream.readUTF() lee una cadena en formato UTF-8 (formato de transformación Unicode) modificado. UTF -8 significa que utiliza bloques de 8 bits para representar un carácter.
Sintaxis:
public String readUTF()Java
Parameters :
public final Object readObject()
Return :
reads String in modified UTF-8 (Unicode Transformation Format) format
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of readUTF() import java.io.*; public class// Java program explaining the working of readUTF() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); // Use of readUTF() method System.out.println("Use of readUTF() : " + Geek_inStream.readUTF()); } }
- Producción :
Use of readUTF() : gEEKSArehERE
- skipBytes(int maxlen): java.io.ObjectInputStream.skipBytes(int maxlen) omite 'maxlen' no. de bytes durante la lectura.
Sintaxis:
public int skipBytes(int maxlen)Java
Parameters :
maxlen : max. no. of bytes to be skipped
Return :
no. of bytes to be skipped
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of skipBytes() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); // Use of skipBytes() : Geek_inStream.skipBytes(7); for (int i = 2; i < Geek_inStream.available(); i++) { System.out.print((char) Geek_inStream.readByte()); } } }
- Producción :
Are
- readFully(byte[] destino): java.io.ObjectInputStream.readFully(byte[] destino) Lee todos los bytes desde el origen hasta la matriz de destino.
Sintaxis:
public void readFully(byte[] destination)Java
Parameters :
destination : the buffer in which the data is to be read
Return :
returns the 32 bit float read
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if End of stream is reached
// Java program explaining the working of readFully() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); byte[] destination = new byte[14]; // Use of readFully() Geek_inStream.readFully(destination); String str = new String(destination); System.out.println("Use of readFully(destination offset maxlen) : "+str); } }
- Producción :
Use of readFully(destination offset maxlen) : gEEKSArehERE
- readFully(byte[] destino int offset int maxlen): java.io.ObjectInputStream.readFully(byte[] destino int offset int maxlen) lee algunos bytes (comenzando desde el desplazamiento hasta la posición maxlen) desde el origen hasta la matriz de destino.
Sintaxis:
public void readFully(byte[] destination int offset int maxlen)Java
Parameters :
destination : the buffer in which the data is to be read
offset : starting position of the buffer
maxlen : max no. of bytes to be read
Return :
void
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if End of stream is reached
// Java program explaining the working of // readFully(byte[] destination int offset int maxlen) import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); byte[] destination = new byte[14]; // Use of readFully(byte[] destination int offset int maxlen) Geek_inStream.readFully(destination 3 7); String str = new String(destination); System.out.println("Use of readFully(destination offset maxlen) : "+ str); } }
- Producción :
Use of readFully(destination offset maxlen) : geeks
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